Personal Protective Equipment Supplier – Respiratory Protection

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PERSONAL PROTECTIVE EQUIPMENT SUPPLIER – Respiratory Protection

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BEST PRACTICE GUIDELINES FOR RESPIRATORY PROTECTION

If youareinHealthandSafetyor areaBuyeryoumayknowfromexperiencewhatworksorwhatnot worksfor You! Nolwazi MSRM as a Health and Safety Specialist recognize this and appreciates this fully, however we do not just supply Personal Protective Equipment. And you might be surprised at this fact! To obtain a Quote and to add Value to your company align yourself to Nolwazi MSRM (Pty) Ltd. Why not arrange a meeting with us and test our knowledge on Health and Safety. We are friendly, straightforward and to the Point. Ours is a business that exceeds at the discerning buyer or Health and Safety official that takes it serious when it comes to “Protecting Your People”. Call us now!

According to South Africa`s own Occupational Health and Safety Act 85 of 1993, within the General Safety Regulations 3(A) PPE must be provided and it mentions only what must be provided it does not mention the type of protection! In other words there is a vacuum to guide us. Normally what happens it is up to the Health and Safety department of a company to assess and make the required recommendation towards the type of PPE that is required based upon Risk Analysis and feasibility studies. So where do we find best practice towards Personal Protective Equipment. And what is respiratory Protection?

Lets first look at what is the respiratory tract and why it is important to use Personal Protective Equipment to Protect the Worker effectively. To obtain more information on selection of Respiratory Protection you can contact MSRM.

How to select proper respiratory protection

Respiratory Protective Equipment (RPE) is a particular type of Personal Protective Equipment (PPE), used to protect the individual wearer against the inhalation of hazardous substances in the workplace air. RPE should only be used where adequate control of exposure cannot be achieved by other means, in other words, as a last resort within the hierarchy of control measures: Elimination, Substitution, Engineering Controls, Administrative Controls, PPE.

Employers are required to firstly attempt to eliminate the hazard at source. RPE should only be used after all other reasonably practicable control measures have been taken. PPE is considered a last resort because it only protects individual workers, is prone to failure or misuse, such as wearing the wrong RPE for the job, and employees wearing RPE may get a false sense of security when using RPE.

Respiratory Protective Equipment (RPE) not worn or selected appropriately is totally ineffective and may give the user a false sense of protection.

There are Seven Elements of a Respiratory Program

A written plan detailing how the program is managed

A complete assessment and knowledge of respiratory hazards that will be encountered in the workplace

Procedures and equipment to control respiratory hazards, including the use of engineering controls and work practices designed to limit or reduce employee exposures to such hazards

Guidelines for the proper selection of appropriate respiratory protective equipment

An employee training program covering hazard recognition, the dangers associated with respiratory hazards, and proper care and use of respiratory protective equipment

When should a respirator be used?

Workers should use respirators for protection from contaminants in the air only if other hazard control methods are not practical or possible under the circumstances. Respirators should not be the first choice for respiratory protection in workplaces. They should only be used:

when following the “hierarchy of control” is not possible (e.g., elimination, substitution, engineering or administrative controls)

while engineering controls are being installed or repaired

when emergencies or other temporary situations arise (e.g., maintenance operations)

How should respiratory hazards be controlled?

Respiratory hazards can include airborne contaminants such as biological contaminants, dusts, mists, fumes, and gases, or oxygen-deficient atmospheres. Note that more than one respiratory hazard can be present at the same time.

A hazard control program consists of all steps necessary to protect workers from exposure to a substance or system, the training and the procedures required to monitor worker exposure and their health to hazards such as chemicals, materials or substance, or other types of hazards such as noise and vibration. A written workplace hazard control program should outline which methods are being used to control the exposure and how these controls will be monitored for effectiveness.

After elimination and substitution, well designed and maintained engineering controls are the preferred methods of controlling worker exposure to hazardous contaminants in the air. These control methods include:

mechanical ventilation

enclosure or isolation of the process or work equipment

proper control and use of process equipment, and

process modifications including substitution of less hazardous materials where possible.

Administrative controls may be used in addition to engineering controls. Administrative controls limit workers’ exposures by scheduling reduced work times in contaminant areas or by implementing other such work rules. These control measures have many limitations because the hazard is not removed. Administrative controls are not generally favored because they can be difficult to implement, maintain and are not reliable.

What are IDLH considerations?

Some types of atmospheres contain concentrations of hazardous substances that places the worker in immediate danger because these concentrations would impair the ability to leave the work area (self rescue) or potentially cause irreversible health effects, including serious injury or death in a matter of minutes.

There are particular conditions that are considered “Immediately Dangerous to Life or Health (IDLH)”. These include*:

A known contaminant at a concentration known to be IDLH

A known contaminant at an unknown concentration with the potential to be IDLH

An unknown contaminant at an unknown concentration

An untested confined space

An oxygen-deficient atmosphere

Firefighting

Contaminants at or above 20% of their lower explosive limit (LEL—the concentration at which the gas or vapor could ignite)

Are there some things that you should know before you choose a respirator?

Employers should have a written respirator program that describes the proper procedures for selecting and operating respiratory protective equipment. The correct use of a respirator is just as important as selecting the proper respirator. The respirator program must also address how to find out what hazards are present, how much protection that the workers will need, and describe how to wear and look after the respirator.

Without a complete respiratory protection program, workers will not receive the best protection from a respirator even if it is the correct choice for a specific job. A respiratory protection program includes several components such as:

hazard identification and control

exposure assessment

respirator selection

respirator fit-testing

training program

inspection and record keeping

cleaning and sanitizing respirators

repairing and maintaining respirators

proper storage of respirators

health surveillance

standard operating procedures (available in written form)

program evaluation.

A qualified health care professional should examine the medical and psychological fitness of workers. This evaluation should be done before they are assigned to work in areas where respirators may be required. The workers must be physically fit to carry out the work while wearing respiratory equipment. They must also be psychologically comfortable (e.g., not have fears or be claustrophobic) about wearing respirators.

Workers with beards, long sideburns, or even a two-day stubble may not wear respirators because the hair breaks the seal between the skin and the respirator mask. Wearing eyeglasses would also break the respirator seal. This break means that the respirator mask will “leak” and will not provide the needed respiratory protection. Also, if a worker has facial scars or an acne problem, the facial skin may not be able to form a good seal with a respirator mask.

What are the different classes of respirators?

The two main types are air-purifying respirators (APRs) and supplied-air respirators (SARs).

Air-purifying respirators can remove contaminants in the air that you breathe by filtering out particulates (e.g., dusts, metal fumes, mists, etc.). Other APRs purify air by adsorbing gases or vapours on a sorbent (adsorbing material) in a cartridge or canister. They are tight-fitting and are available in several forms:

mouth bit respirator (fits in the mouth and comes with a nose clip to hold nostrils closed – for escape purposes only)

quarter-mask (covering the nose and mouth)

half-face mask (covering the face from the nose to below the chin)

full facepiece (covering the face from above the eyes to below the chin)

Respirators with a full facepiece also protect the eyes from exposure to irritating chemicals.

Supplied-air respirators (SARs) supply clean air from a compressed air tank or through an air line. This air is not from the work room area. The air supplied in tanks or from compressors must meet certain standards for purity and moisture content (e.g., CSA Standard Z180.1-13): Compressed Breathing Air and Systems).

Supplied-air respirators may have either tight-fitting or loose-fitting respiratory inlets. Respirators with tight-fitting respiratory inlets have half or full facepieces. Types with loose-fitting respiratory inlets can be hoods or helmets that cover the head and neck, or loose-fitting facepieces with rubber or fabric side shields. These are supplied with air through airlines.

chemical cartridge respirators that can have a combination of chemical cartridges, along with a dust pre-filter. This combination provides protection against different kinds of contaminants in the air

gas masks (contain more adsorbent than cartridge-type respirators and can provide a higher level of protection than chemical cartridge respirators)

powered air-purifying respirators (PAPRs)

Supplied-air respirators (SARs):

self-contained breathing apparatus (SCBA)

airline supplied-air respirators

protective suits that totally encapsulate the wearer’s body and incorporate a life-support system

There are some combinations of airline respirators and SCBAs that allow workers to work for extended periods in oxygen-deficient areas or where there are airborne toxic contaminants. The auxiliary or backup SCBA source allows the worker to escape with an emergency source of air if the airline source fails.

There are also combination air-purifying and atmosphere supplying respirators. These devices will offer worker protection if the supplied-air system fails when the appropriate air-purifier units are selected. These cannot be used in oxygen-deficient areas or where the air concentration of a contaminant exceeds the IDLH level (i.e., immediately dangerous to life or health).

Since filters capture particles, caution must be exercised to always check that these filters are not clogged as it makes it harder for air to pass through. Cartridges can also become “full” or saturated. It will stop working and “breakthrough” will occur – this term means that the gases or vapours will leak through the cartridge. Both cartridges and filters must be replaced on a regular basis by using the manufacturer’s recommendations (usually determined by using warning properties or end-of-service indicators).

There are different classes of particulate filters, depending on the particulate material. They are also classified based on levels of oil resistance and filter efficiency. Oil can break down certain types of filters which means it is important to know the materials you are working with at all times and always select the right cartridge for your respirator.

The main categories are:

N series (Not resistant to oil) – May be used in any atmosphere where there is no oil particulate.

R series (Resistant to oil) – May be used in any atmosphere where there is no oil particulate, or up to one shift where there is oil particulate present. “One shift” means eight hours of continuous or intermittent use.

P series (Oil-Proof) – May be used in any atmosphere, including those with oil particulates, for more than one shift. If the filter is used in atmospheres with oil particulates, contact the manufacturer to find out the service life of the filter.

How do you select the right respirator?

Choosing a respirator is a complicated matter. Experienced safety professionals or occupational hygienists, who are familiar with the actual workplace environment, are the staff who should select the proper respirator. They can choose a suitable respirator only after they have evaluated all relevant factors. This decision includes considering the limitations of each class of respirator.

Before the proper respirator can be selected for a job, be sure you have already:

identified the respiratory hazard

evaluated the hazard

considered whether engineering controls are feasible

There are too many types of situations to cover them all fully here. However, the following questions represent part of “decision logic” that a safety professional or occupational hygienist can use when selecting a respirator:

Is it to be used in firefighting or emergencies?

Is it to be used in oxygen-deficient atmospheres (less than 18% oxygen in air; some jurisdictions say below 19.5%)?

What is the nature of the hazard (chemical properties, concentration in the air, warning properties)?

Is there more than one contaminant (i.e. a mixture or more than one chemical is present)?

Is the airborne contaminant a gas, vapor or particulate (mist, dust or fume)?

Are the airborne levels below or above the exposure limit, or are they above levels that could be immediately dangerous to life or health?

What are the health effects of the airborne contaminant (carcinogenic, potentially lethal, irritating to eyes, absorbed through the skin)?

What are the characteristics of the operation or the process (e.g., hot temperature, confined space)?

What activities will the worker be doing while wearing the respirator (e.g., strenuous work)?